nanoscience 中文意思是什麼
nanoscience
解釋
奈米科學-
Application of nanoscience and nanotechnology in biomedicine
納米科技在生物醫學中的應用 -
Recent technical and policy reports, funding opportunities, profiles of projects currently supported, and links to other nanoscience technology sites
-成立於2002年,提供奈米簡介模擬crn綱領文獻熱衷領域。 -
Currently the researches can be grouped into three major areas : nanoscience, complexity, medium and high energy physics
本所現在的研究方向可分為奈米科學,復雜系統及中高能物理三大主流。 -
Norway ' s acadamy of science and letters announces three new " kavil " prizes of us $ 1 million each, to honor outstanding contributions in astrophysics, nanoscience, and neuroscience
挪威科學與與文學學院設立三項新的卡菲爾獎,表揚在天文物理學、奈米科技和神經科學方面有傑出貢獻的人士,得主將各得一百萬美元獎金。 -
Nanoscience have been drawn considerable interest and physicaly investigated all over the world. the nanoparticles have different properties compared with bulk materials such as quantum size effect, surface effect, the dieletric confinement etc. the intrinsic optical properties of nanoparticles have been thoroughly studied
納米材料科學是一門涉及多學科領域的科學,納米顆粒由於尺寸小能產生量子尺寸效應,表面效應,介電限域效應和宏觀量子隧道效應等。 -
Center of nanoscience and nanotechnology of cas is in operation
中國科學院納米科技中心進入實質性運作階段 -
The study of one - dimensional ( 1d ) materials has become a potential frontier in nanoscience and nanotechnology in the last few years. this thesis focuses on developing new nano - biomaterials and their immobilization strategies in biosensor - fabricating for the purpose of improving the performance and long - term stability of biosensors. therefore, nano - sized flower - like zno ( chapter 2 ) and zno nano - rods ( chapter 3, 4 ) were synthesized by a simple hydrothermal method and a solvothermal route, respectively
本研究論文主要是通過發展新型的生物納米材料及其固定方法,以達到改進固定生物組分活性、提高傳感器靈敏度等目的,以此為出發點分別用水(第2章)和乙醇(第3 、 4章)做溶劑,利用溶劑熱法合成了片狀和棒狀的納米zno ,這兩種方法均具有實驗操作簡單、環境污染少、成本低、產率高等優點;這兩種方法所得到的材料均成功應用於生物傳感器的構建(酚類、過氧化氫、葡萄糖傳感器) 。 -
The results obtained in this thesis are of significance in exploring the intrinsic properties of low - dimensional nanostructured materials, and in developing fundamental of in situ ftir reflection spectroscopy, and nanotechnology and nanoscience as well. the main results and conclusions are summarized as follows : 1. the development of surface combinatorial method
本論文工作的主要內容及研究結果如下: 1 .分子水平表面組合電化學研究方法初探以電化學insitumftirs為分析檢測手段,自行設計和制備meai ,在分子水平上開展表面組合電化學研究。 -
National center for nanoscience and technology, china
國家納米科學中心 -
Comtemplate how to develop nanoscience and technology in china
關於我國發展納米科技的一些思考 -
Shanghai aj nanoscience co., ltd. is a hi - tech enterprise registered at zhangjiang hi - tech park in pudong, shanghai, engaging in the research and development of nanoscopic devices
上海愛建納米科技發展有限公司是一家專業從事納米科技研究開發的民營高技術企業。 -
The age of nanofabrication is here, and the age of nanoscience has dawned, but the age of nanotechnology ? finding practical uses for nanostructures ? has not really started yet
奈米製造的時代已經來臨,奈米科學的時代正露出曙光,但是奈米技術(找出奈米結構的實際用途)的時代,其實還沒有開始。 -
This expense may or may not be acceptable to manufacturers, but it is prohibitive for the biologists, materials scientists, chemists and physicists who wish to explore nanoscience using structures of their own design
製造廠商或許能接受這種價錢,但對于想用自己的設計來探討奈米科學的生物學家、材料科學家、化學家及物理學家來說,這是沒法接受的。 -
The self - assembly of quantum structure is a new science concept, which unifies the chemistry and physics, organic and inorganic, and so on. the process using self - assembly to construct quantum structure in mesoscope will greatly promote the development of integrated circuits, microelectronics, nanoelectronics and further, to molecular electronics. the self - assembly of quantum structure is being one of the hottest fields in solid physics, material chemistry, and nanoscience
量子結構組裝是一新的科學概念,它統一化學與物理,有機與無機,在介觀尺度上實現集成,它的實現,將會大大地促進納米集成光電子學,納米集成微電子學的發展,是當前固體物理、材料化學中的活躍領域之一。 -
In addition, a number of courses, e. g., astronomy, relativity, astrophysics, computer simulation, solid state physics, plasma physics, laser physics, photonics, electronics, instrumentation, materials characterization, nanoscience, physics project and graduate courses, etc., are available for the students to choose as electives in order to fulfill their major requirements and to satisfy their own interests
除核心及組別科目之外,本系還設有天文學、相對論、天體物理、電算模擬、固態物理、等離子體物理、光子學、激光物理、電子學、儀器學、材料測試、納米科學、物理專題、及研究院等科目供同學選修。
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